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Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition

机译：纳米粒子添加对激光粉末融合和定向能沉积产生的氧化物分散钢的微观结构和微硬度的影响

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In this contribution, the effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels (ODS) manufactured by laser powder bed fusion (L-PBF) and directed energy deposition (DED) additive manufacturing (AM) is studied. The powder composites are made of micrometer-sized iron-chromium-alloy based powder which are homogenously decorated with Y_2O_3 nanoparticles synthesized by pulsed laser fragmentation in water. Consolidated by L-PBF and DED, an enhanced microhardness of the AM-built ODS sample is found. This increase is related to the significant microstructural differences found between the differently processed samples.

机译：在该贡献中，研究了纳米粒子补充剂对由激光粉末融合（L-PBF）制造的氧化物分散体（ODS）和定向能量沉积（DED）添加剂制造（AM）制造的氧化物分散体的微观结构和微硬度的影响。粉末复合材料由微米尺寸的铁 - 铬合金基粉末制成，其均匀地用脉冲激光碎片在水中合成的Y_2O_3纳米颗粒装饰。通过L-PBF和DED合并，发现了AM-USIOM ODS样品的增强显微硬度。这种增加与不同加工样本之间发现的显着的微观结构差异有关。

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《International Conference on Photonic Technologies》|2020年|480p|共5页
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作者
C. Donate-Buendia; R. Streubel; P. Kurnsteiner; M. B. Wilms; F. Stern; J. Tenkamp; E. Bruder; S. Barcikowski; B. Gault; K. Durst; J. H. Schleifenbaum; F. Walther; B. Gokce;
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中图分类 TN2-53;
关键词
Oxide dispersion strengthened steel; ODS; Powder modification; Laser based powder bed fusion; Directed energy deposition; Laser metal deposition; Nanoparticles;

机译：氧化物分散体强化钢;ODS;粉末改性;基于激光的粉床融合;定向能量沉积;激光金属沉积;纳米粒子;

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1. Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition [J] . C. Do?ate-Buendia, R. Streubel, P. Kürnsteiner, Procedia CIRP . 2020,第Suppla1期

机译：纳米粒子添加对激光粉末融合和定向能量沉积产生的氧化物分散钢的微观结构和微硬度的影响
2. Oxide dispersion strengthened 304 L stainless steel produced by ink jetting and laser powder bed fusion [J] . Paul Brian K., Lee Kijoon, He Yujuan, CIRP Annals . 2020,第1期

机译：通过喷墨和激光粉床融合产生的氧化物分散体加强了304L不锈钢
3. Effect of powder characteristics on production of oxide dispersion strengthened Fe-14Cr steel by laser powder bed fusion [J] . Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2020,第期

机译：粉末特性对激光粉床融合强化Fe-14CR钢的影响
4. Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition [C] . C. Donate-Buendia, R. Streubel, P. Kurnsteiner, International Conference on Photonic Technologies . 2020

机译：纳米粒子添加对激光粉末融合和定向能沉积产生的氧化物分散钢的微观结构和微硬度的影响
5. Microstructure Evaluation and Process Optimization of Ti6Al4V-xB and Tool Steel Produced by Laser Powder Bed Fusion [D] . ?He, Yining 2020

机译：通过激光粉床融合产生Ti6Al4V-XB和工具钢的微观结构评价和工艺优化
6. Analysis of the Nanoparticle Dispersion and Its Effect on the Crystalline Microstructure in Carbon-Additivated PA12 Feedstock Material for Laser Powder Bed Fusion [O] . Tim Hupfeld, Alexander Sommereyns, Farbod Riahi, 2020

机译：纳米粒子分散的分析及其对激光粉床碳含量碳含量的PA12原料材料结晶微观结构的影响
7. Effect of the powder feedstock on the oxide dispersion strengthening of 316L stainless steel produced by laser powder bed fusion [O] . Dmitri Riabov, Masoud Rashidi, Eduard Hryha, 2020

机译：粉末原料对激光粉床融合生产316L不锈钢氧化物分散的影响

Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition

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